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Metal Oxide-Based Heterostructures. Fabrication and Applications. Metal Oxides

  • Book

  • November 2022
  • Elsevier Science and Technology
  • ID: 5458208

Metal Oxide-Based Heterostructures: Fabrication and Applications provides information on synthesis strategies, structural and hierarchical features, morphological characteristics of metal oxide-based heterostructures, and their diverse applications. This book begins with an introduction to the various multidimensional heterostructures, synthesis aspects, and techniques used to control the formation of heterostructures. Then, the impact of synthesis routes on the formation of mixed metal oxide heterostructures and their properties are analyzed. The effect of nonmetal doping, metal doping, and composites of metal oxide heterostructures on the properties of heterostructures is also addressed and that also includes opportunities for optimization of the material's performance for specific applications. Special attention is given to the surface characteristics of the metal oxide heterostructures and their impact on the material's performance, and the applications of metal oxide heterostructures in various fields such as environmental remediation, sensing, organic catalysis, photovoltaics, light emitting materials, and hydrogen production.

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Table of Contents

Section One Metal oxide-based heterostructures

1. Metal oxide-assisted heterostructures: at a glance

2. Interface effects in metal oxide heterostructures

3. Nanoscale phenomena in metal oxide heterostructures

4. Metal oxide-based nanocomposites: greener synthesis routes and their potentiality

5. Polymer-metal oxide heterostructures: formation, characteristics and applications

Section Two Metal oxide-based heterostructures and their applications

6. Recent advancements in the development of metal oxide heterostructures for environmental remediation

7. Fabrication of metal oxide heterostructures for the application

in chemoresistive gas sensors

8. Metal oxides based materials for display devices

9. Metal oxide heterostructure-based light-emitting diodes

10. Development of metal oxide heterostructures for photovoltaic and solar cell applications

11. Heterojunction metal oxide-based thin-film transistors for sensing

12. Metal oxide heterostructures as catalysts in organic reactions

13. Metal oxide heterostructures for light detector applications

14. Development of metal oxide heterostructures for hydrogen production

15. Metal oxide-based heterostructures for antimicrobial activity

Authors

Naveen Kumar Associate Professor, Dept. of Chemistry, Maharshi Dayanand University, Rohtak, Haryana, India. Dr. Naveen Kumar has 18 years of research experience and is currently working as Associate Professor in Department of Chemistry, Maharshi Dayanand University, Rohtak, India, while holding other academic positions in the same institute. He is actively engaged in the field of material chemistry, with photocatalysis and luminescent materials as the focus of his research activities. He has published more than 55 articles in journals of high repute. At the Universitat Polit�cnica de Val�ncia, Spain, he also participated in an international research project, Development of a new generation CIGS-based solar cells [NANICIS-269279], in 2013 and 2014. He has been appointed as a reviewer for various reputed journals and was invited as guest editor by MPDI Catalyst (2021) for an issue on nanocatalysis and photocatalysis. He has presented research papers at national and international conferences and delivered lectures at various institutes. He is presently also working as a book editor for both Elsevier and CRC Press/Taylor & Francis Group. Bernab� Mar� Soucase Professor, Department of Applied Physics, Universitat Polit�cnica de Val�ncia, Valencia, Spain. Dr. Bernab� Mar� Soucase is a Professor at the Department of Applied Physics at the Universitat Polit�cnica de Val�ncia at Valencia, Spain. He is the principal investigator of the optoelectronics and semiconductor research team where their primary lines of investigation include doping of semiconductors by neutron transmutation, optical and electrical properties of III-V and III-VI semiconductors and the development of semiconductor devices.